Firefighter Ray Hodgson hits the talk button on his walkie-talkie: “I have fire showing, possibility of a rescue on the third floor. Engine 35, initiate a rescue group. Also back him up with a hose line.”

A fire has been set in a three story building at the Maryland Fire and Rescue Institute, where firefighters hone their skills and test equipment. In this case they’re testing a device they hope will save firefighters’ lives. Everyone taking part in the drill knows how difficult and dangerous it is to locate a missing firefighter in a smoky inferno.

“When you go into a burning building, you don’t really see anything. You can’t see your hand in front of your face; you’re going on instincts. It’s almost a surreal experience,” says Matt Leonard, a firefighter in the District of Columbia and a deputy chief in Prince George’s County, Md.

“We’ve had instances where we’ve lost firefighters in a building and had a hard time finding them. It’s very frustrating,” says Hodgeson, a firefighter for 44 years. He knows firsthand the sinking feeling of hearing the dreaded words that one of his colleagues is missing. That’s why this team of experienced firefighters is taking time to test out a new type of sensor that can track their whereabouts deep inside buildings, where standard GPS units often don’t work.

“This has been a need for a long time,” says Carol Politi, CEO of TRX Systems, the company developing the sensor. “Sept. 11 was widely publicized and there was not even an understanding of whether certain firefighters were actually in the buildings at the time of that tragedy.”

With support from the National Science Foundation (NSF), electrical engineer Politi and her team at TRX Systems are developing a portable device called the Sentrix Tracking Unit. It straps on like a belt and consists of a suite of sensors. “The sensors include accelerometers and gyroscopes. Those are sensors similar to what you have in your Wii for example–pressure sensors ranging sensors. It allows us to create a picture of what a user has done,” says Politi.

“The sensors monitor the movement of the user,” explains Ben Funk, vice president of Engineering at TRX. “So when the user moves forward or backwards, left or right, it determines how far a person moved in each direction.”

During the fire drill the sensors create a map of the building as the firefighters move through the smoke.

“Twenty-eight-nineteen, we have a mayday on the third floor from the rescue group,” Hodgson relays. “Initiate a search.”

During the demonstration, Hodgson assumes the role as incident commander as the others move through the burning building in teams of two. One of the firefighters, outfitted with a sensor, crawls through the smoke and purposely gets lost. The Sentrix Tracking Unit maps his location at every twist and turn, sending the data to a nearby base station–in this case, the incident commander’s laptop. The system can transmit via a variety of different radio-waves to accommodate different receivers.

“The tracker advises they’re on the back Delta Charlie quadrant in the back bedroom,” says Hodgson into his walkie-talkie.

In minutes the firefighter is located by a member of his team.

For the Full Article From the National Science Foundation Web Site, HERE All rights reserved

Within 24 hours of the eruption of a wildfire in the Cleveland National Forest near San Diego, communications expert Hans-Werner Braun and his collaborators from the NSF-supported High Performance Wireless Research and Education Network (HPWREN) were on the scene. The HPWREN researchers set up hardware at key points to allow firefighters in remote locations to communicate by a wireless link from the wildfire incident command post to the Internet. Find out more in this news release.Credit: HPWREN

A sensor is any device that can take a stimulus, such as heat, light, magnetism, or exposure to a particular chemical, and convert it to a signal. While the concept of sensors is nothing new, the technology of sensors is undergoing a rapid transformation. Learn more in this Special Report.Credit: Brett Warneke, Kris S.J. Pister, Berkeley Sensor & Actuator Center, University of California, Berkeley

The Division of Industrial Innovation and Partnerships (IIP) of the Directorate for Engineering serves the entire foundation by fostering partnerships to advance technological innovation, and plays an important role in the public-private innovation partnership enterprise. The focus of IIP is to successfully invest in engineering research and innovation by leveraging federal, small business, industrial, university, state and community colleges resources.

University of Utah engineers showed that a wireless network of radio transmitters can track people moving behind solid walls. The system could help police, firefighters and others nab intruders, and also rescue hostages, fire victims and elderly people who fall in their homes.

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